The invention relates to a system having a conveying apparatus for moving portions that each comprise at least one slice cut off from a food product, in particular by means of a slicing apparatus, in particular by means of a high-speed slicer; having at least one packaging apparatus for packaging the portions; and having at least one transfer device for transferring the portions from the conveying apparatus to the packaging apparatus, wherein the conveying apparatus comprises a plurality of individually movable transport movers for the transport of portions, a path system for the transport movers in which the transport movers are movable along at least one predefined path in a transport direction, and a control device for controlling the movements of the transport movers in the path system, wherein the transport movers each comprise at least one rotor cooperating with the path system and at least one carrier for portions attached to the rotor; and wherein the transfer device is configured to form a single-line or multi-line format set from a plurality of portions of different transport movers and to transfer the format set as a whole to the packaging apparatus.

A conveyor system and method for spreading a mass of electrically conductive articles, such as aluminum cans, being transferred from an infeed conveyor to a wider discharge conveyor. A transfer device between the infeed and discharge conveyors uses linear induction to propel and spread electrically conductive articles across a continuous transfer surface with or without the aid of backpressure or mechanical spreading means.

The present invention provides a device for grouping containers, comprising a plurality of transfer pallets for conveying containers upright on a pallet surface and a first transfer device comprising a first transfer platform and an infeed manipulator, wherein the pallet surface of each transfer pallet has a plurality of ridge-like elevations forming a support surface for the containers, and wherein the first transfer platform has a comb-shaped outlet area configured for allowing the ridge-like elevations of the pallet surface to pass through the intermediate spaces of the comb-shaped outlet area for taking over the at least one container.

A machine for applying spouts to containers includes a heating tunnel for heating spouts, and a conveyor for conveying spouts through the heating tunnel for heating. The conveyor is a loop conveyor including a plurality of spout holding rack assemblies mounted thereon, wherein the loop conveyor defines a conveyor path from a spout loading zone, through the heating tunnel and then back to the spout loading zone. The machine includes (i) multi-material warp resistant rack holding assemblies, and/or (ii) a spout infeed track at a spout infeed side of the conveyor that includes an adjustment assembly for permitting adjustment of a number of spouts fed from the spout infeed track into an aligned spout holding rack assembly, and/or (iii) a spout emptying passage at a spout outfeed side of the conveyor, and/or (iv) a controller configured to track the position of each spout holding rack assembly along the conveyor path.

An apparatus that shapes a narrow container stream into a wider container stream includes a shaping region in which a deceleration segment follows the container inlet and a shaping segment, which forms the container outlet, follows the deceleration segment. Within the shaping region, laterally adjacent transport bands define a transport plane for moving containers. Container guides extend from the container inlet to the container outlet and delimit corresponding first and second sides of the shaping region between two limit curves. The container guides have inner sides that guide the containers. These sides are curved about axes perpendicular to the horizontal transport plane.

A method for combining multiple separate streams of packaged materials into a main stream is provided, in which each of the streams of packaged materials is conveyed on a feed conveyor, is combined with the main stream in the region of a feed opening of the feed conveyor and further transported on a main conveyor in the main stream and in which at least one lateral wall laterally delimits the main stream. In order to combine multiple separate streams of packaged materials into the main stream despite a narrowing of the conveyor width to counteract jamming, packaged materials from the main stream in the region between two feed openings of two feed conveyors are guided towards the lateral wall and then along the lateral wall, as a result of an alignment of the main conveyor relative to the lateral wall. A device for conveying packaged materials is also provided.

The present invention relates to an apparatus for grouping containers, comprising: a first conveyor belt for transporting the containers in a first transport direction; a second conveyor belt; a container receiving device; a transfer device, which is designed to transfer at least some of the containers from the first conveyor belt to the second conveyor belt transversely to the first transport direction and to transfer at least some of the containers transferred to the second conveyor belt to the container receiving device transversely to the first transport direction; and a motor device, in particular a long stator motor device, which is designed to move the transfer device for transferring a container.

A machine for applying spouts to containers includes a heating tunnel for heating spouts, and a conveyor for conveying spouts through the heating tunnel for heating. The conveyor is a loop conveyor including a plurality of spout holding rack assemblies mounted thereon, wherein the loop conveyor defines a conveyor path from a spout loading zone, through the heating tunnel and then back to the spout loading zone. The machine includes (i) multi-material warp resistant rack holding assemblies, and/or (ii) a spout infeed track at a spout infeed side of the conveyor that includes an adjustment assembly for permitting adjustment of a number of spouts fed from the spout infeed track into an aligned spout holding rack assembly, and/or (iii) a spout emptying passage at a spout outfeed side of the conveyor, and/or (iv) a controller configured to track the position of each spout holding rack assembly along the conveyor path.

A method and a device for buffering containers grouped in a single row in a filling system are described. For this purpose, the containers are entered into storage on at least one infeed conveyor belt in the infeed direction, moved in a single row onto a transversely adjoining buffer area by rail-guided and individually driven shuttles with row pushers in a buffering direction running transverse to the infeed direction, and are removed from storage on at least one outfeed conveyor belt transversely adjoining in the buffering direction. Due to the fact that the row pushers receive the containers in a single row in a guide channel formed/defined by an anterior row guide leading in the buffering direction and by a trailing posterior row guide, the groups of containers can be moved in the buffering direction and positioned precisely, quickly and secured against falling over without back pressure.

A method and a device for buffering containers in a container treatment plant are disclosed. The containers are stored in single rows by at least one inlet conveyor belt in an inlet direction, are shifted in single rows on a buffer surface transversely adjacent by shuttles with row pushers guided on rails and driven individually into a buffer direction extending transversely to the inlet direction in single rows, and are withdrawn by at least one outlet conveyor belt adjacent to the buffer surface in the buffer direction in an outlet direction extending transversely to the buffer direction, or by at least one planar motor armature that can be driven towards the buffer surface and that is in particular driven two-dimensionally. Thus, the containers can be decelerated/accelerated with respect to the inlet/outlet conveyor belt in a controlled manner.