A sorting conveyor system (46) comprising a main conveyor line (48) intersected by cross conveyors (18) having roller-top conveyor belts (20). The roller-top conveyor belts, which can be driven bidirectionally perpendicular to the conveying direction of the main conveyor line, have article-supporting belt rollers (22) that can rotate freely in the main conveying direction (14). Articles (38) fed from the main conveying line onto the cross conveyor can be sorted to the left or the right by the conveyor belt. Articles destined for sorting downstream pass over the stopped roller-top conveyor belt atop the freely rotatable belt rollers and back onto the main conveyor line. A booster (40), such as a motorized roller (40), between the main conveyor line and the cross conveyor applies a force in the main conveying direction against articles destined to cross the cross conveyor.

An automated storage and retrieval system includes an automated storage and retrieval grid, a container accessing station, a delivery rail system, and a delivery vehicle operating on the delivery rail system. The automated storage and retrieval grid includes a container handling vehicle rail system for guiding a plurality of container handling vehicles, the container handling vehicle rail system comprising a first set of parallel rails arranged in a horizontal plane (P) and extending in a first direction (X), and a second set of parallel rails arranged in the horizontal plane (P) and extending in a second direction (Y) which is orthogonal to the first direction (X), which first and second sets of rails form a grid pattern in the horizontal plane (P) comprising a plurality of adjacent container handling vehicle grid cells, each container handling vehicle grid cell comprising a container handling vehicle grid opening defined by a pair of neighboring rails of the first set of rails and a pair of neighboring rails of the second set of rails; and a delivery column adapted for transport of a storage container arranged in a stack of storage containers beneath the container handling vehicle rail system between a container handling vehicle and a delivery port situated at a lower end of the delivery column. The delivery rail system includes at least a first set of parallel rails arranged in a horizontal plane (P1) and extending in a first direction (X), and at least a second set of parallel rails arranged in the horizontal plane (P1) and extending in a second direction (Y) which is orthogonal to the first direction (X), the first and second sets of rails together defining a delivery grid of delivery grid cells. The delivery vehicle includes a motorized vehicle body and a container carrier provided above the motorized vehicle body for carrying the storage container. The delivery vehicle is arranged to transport the storage container from the delivery port of the storage grid across the delivery grid to the delivery grid cell situated below the container accessing station. The container accessing station includes an access opening through which a human and/or robot may access contents of the storage container; a base opening; and a lifting device arranged to retrieve the storage container from a first level beneath the base opening and lift it up through the base opening to a second level so that the storage container may be accessed through the access opening. The delivery vehicle is arranged to deliver the storage container to the lifting device of the container accessing station, or receive a storage container from the lifting device and return the st

An automated storage and retrieval system includes an automated storage and retrieval grid, a container accessing station, a delivery rail system, and a delivery vehicle operating on the delivery rail system. The automated storage and retrieval grid includes a container handling vehicle rail system for guiding a plurality of container handling vehicles, the container handling vehicle rail system comprising a first set of parallel rails arranged in a horizontal plane (P) and extending in a first direction (X), and a second set of parallel rails arranged in the horizontal plane (P) and extending in a second direction (Y) which is orthogonal to the first direction (X), which first and second sets of rails form a grid pattern in the horizontal plane (P) comprising a plurality of adjacent container handling vehicle grid cells, each container handling vehicle grid cell comprising a container handling vehicle grid opening defined by a pair of neighboring rails of the first set of rails and a pair of neighboring rails of the second set of rails; and a delivery column adapted for transport of a storage container arranged in a stack of storage containers beneath the container handling vehicle rail system between a container handling vehicle and a delivery port situated at a lower end of the delivery column. The delivery rail system includes at least a first set of parallel rails arranged in a horizontal plane (P1) and extending in a first direction (X), and at least a second set of parallel rails arranged in the horizontal plane (P1) and extending in a second direction (Y) which is orthogonal to the first direction (X), the first and second sets of rails together defining a delivery grid of delivery grid cells. The delivery vehicle includes a motorized vehicle body and a container carrier provided above the motorized vehicle body for carrying the storage container. The delivery vehicle is arranged to transport the storage container from the delivery port of the storage grid across the delivery grid to the delivery grid cell situated below the container accessing station. The container accessing station includes an access opening through which a human and/or robot may access contents of the storage container; a base opening; and a lifting device arranged to retrieve the storage container from a first level beneath the base opening and lift it up through the base opening to a second level so that the storage container may be accessed through the access opening. The delivery vehicle is arranged to deliver the storage container to the lifting device of the container accessing station, or receive a storage container from the lifting device and return the st

A system and a method for automatic transfer of carcass parts suspended from a first carrier to being suspended from a second carrier. The carcass parts may be a half carcass that may have been eviscerated and cleaned. The first carrier may be an industry standard gambrel or a single carrier or a Marel DeboFlex carrier, for example a Euro Carrier. The second carrier may be a single carrier, for example a Euro Carrier, or a Marel DeboFlex carrier.

A device for ejecting products in a unit for processing products, a flow of the products moving one behind the other along a circulation trajectory. The device having an ejector for individually ejecting a product out of the circulation trajectory and a motor of the ejector. The ejector having at least one plate with a peripheral edge provided with at least one recess for receiving a single product and the motor having a rotation drive for the plate and a way for synchronizing the drive with the flow of the products. The invention relates also to an installation and an ejection method.

A device for ejecting products in a unit for processing products, a flow of the products moving one behind the other along a circulation trajectory. The device having an ejector for individually ejecting a product out of the circulation trajectory and a motor of the ejector. The ejector having at least one plate with a peripheral edge provided with at least one recess for receiving a single product and the motor having a rotation drive for the plate and a way for synchronizing the drive with the flow of the products. The invention relates also to an installation and an ejection method.

Some embodiments are directed to a system and method for interfacing between conveyors. The system utilizes at least one detachment system to detach a batch of objects from a respective at least one serial feed conveyor, and at least one loading tray to receive a batch of the objects from a respective at least one detachment system, move towards a movable support assembly and discharge the batch of objects thereby carried onto a respective array of grippers of said movable support assembly.

Some embodiments are directed to a system and method for interfacing between conveyors. The system utilizes at least one detachment system to detach a batch of objects from a respective at least one serial feed conveyor, and at least one loading tray to receive a batch of the objects from a respective at least one detachment system, move towards a movable support assembly and discharge the batch of objects thereby carried onto a respective array of grippers of said movable support assembly.

A transport conveyor includes an upstream conveyor section, a downstream conveyor section, and a relay conveyor section having an orientation changeable between a connecting orientation, in which the relay conveyor section in a gap region to connect the upstream conveyor section to the downstream conveyor section, and an open orientation, in which the relay conveyor section is in a non-overlapping region that does not overlap a movement path to open the gap region. A support axis is above a drive axis, and a link mechanism is configured such that when the relay conveyor section is in the connecting orientation, a first pivot axis is below a reference virtual plane connecting the drive axis to a second pivot axis.

A transport conveyor includes an upstream conveyor section, a downstream conveyor section, and a relay conveyor section having an orientation changeable between a connecting orientation, in which the relay conveyor section in a gap region to connect the upstream conveyor section to the downstream conveyor section, and an open orientation, in which the relay conveyor section is in a non-overlapping region that does not overlap a movement path to open the gap region. A support axis is above a drive axis, and a link mechanism is configured such that when the relay conveyor section is in the connecting orientation, a first pivot axis is below a reference virtual plane connecting the drive axis to a second pivot axis.