A paddle conveyor system for efficiently removing tare, dirt, small particles, and other debris from large bulky products such as sugar beets. The paddle conveyor generally includes a first pulley including a first side and a second side and a second pulley including a first side and a second side. A first linkage is connected between the first side of the first pulley and the first side of the second pulley and a second linkage is connected between the second side of the first pulley and the second side of the second pulley. A plurality of paddles is each connected between the first linkage and the second linkage such that the plurality of paddles forms a loop for conveying a material towards the second pulley. Each of the paddles includes one or more slots through which debris from the material may fall.

A storage station, a process for storing, and a bottle tray (5) configured for receiving a bottle layer (7) are provided. The bottle tray has an upright side wall (12), with an upper tray opening (13) and a tray bottom (15) connected to the side wall (12). The bottle tray (5) has a movable lifting bottom (18) that lies in the loaded state (5) on the tray bottom (15) and which has a plurality of passage openings (16) for a lifting device (34) for a relative lift between the side wall (12) and the lifting bottom (18). The tray bottom (15) has a perforated plate or a plurality of struts (17) located spaced apart and enclosing the passage openings (16). The struts are fastened to the side wall (12). The bottle tray (5) has a bottom centering (19) acting between the tray bottom (15) and the lifting bottom (18).

A storage station, a process for storing, and a bottle tray (5) configured for receiving a bottle layer (7) are provided. The bottle tray has an upright side wall (12), with an upper tray opening (13) and a tray bottom (15) connected to the side wall (12). The bottle tray (5) has a movable lifting bottom (18) that lies in the loaded state (5) on the tray bottom (15) and which has a plurality of passage openings (16) for a lifting device (34) for a relative lift between the side wall (12) and the lifting bottom (18). The tray bottom (15) has a perforated plate or a plurality of struts (17) located spaced apart and enclosing the passage openings (16). The struts are fastened to the side wall (12). The bottle tray (5) has a bottom centering (19) acting between the tray bottom (15) and the lifting bottom (18).

A row-forming device (10) together with processes form a bottle row (8) from a bottle layer (7). The row-forming device (10) is configured to pick up and transport away, in rows, the respectively frontmost layer row (61) of the bottle layer (7) moved in a conveying direction (60), in a transverse transport direction (72). One or more layer conveyors (59) moves the bottle row (7) in a conveying direction (60) and adjoins the transport device (62), which has a plurality of parallel conveyor belts (63, 66) that extend in the transport direction (72) and are driven independently and also exhibit mutually different transport speeds. The transport device (62) has a guide strip (68) oriented obliquely to the transport direction (72). The guide strip (68) extends over a part of the conveyor belts (63, 66) and is arranged downstream of the layer conveyor (59) in the transport direction (72).

A modular deflection unit includes a supporting part extending in a transverse direction, at least one module support positioned along the supporting part and at least two roller modules. Roller axles of the roller modules are received and supported by the at least one module support such that the deflection unit as a whole can be modularly exchanged.

A modular deflection unit includes a supporting part extending in a transverse direction, at least one module support positioned along the supporting part and at least two roller modules. Roller axles of the roller modules are received and supported by the at least one module support such that the deflection unit as a whole can be modularly exchanged.

An apparatus and method for manufacturing glass containers handles the containers individually after a hot forming process and annealing to prevent glass-to-glass contact. By handling the containers individually and preventing glass-to-glass contact damage to the containers in the form of checks and scratches is avoided. To prevent contact of the containers and damage arising from the contact, the equipment including conveyors, pushers, starwheels, shuttles, and transfer heads that move the glass containers through the apparatus maintains the glass containers in uniform spaced relationship at each stage of container processing until the containers are packaged.

A semi-automated bulk sorting system includes a primary conveyor having a proximate end and a distal end, where the proximate end of the primary conveyor is configured for collecting outbound parcels and cartons that are to be sorted. The system includes a manual sort center coupled downstream from the primary conveyor and configured to partially sort the parcels and cartons. A parcel final sortation zone is coupled downstream from the manual sort center for receiving the partially sorted parcels and is configured to finally sort the parcels for delivery. In addition, the system includes a plurality of carton palletization zones coupled downstream from the manual sort center for receiving the sorted cartons and to palletize the sorted cartons for delivery.

A semi-automated bulk sorting system includes a primary conveyor having a proximate end and a distal end, where the proximate end of the primary conveyor is configured for collecting outbound parcels and cartons that are to be sorted. The system includes a manual sort center coupled downstream from the primary conveyor and configured to partially sort the parcels and cartons. A parcel final sortation zone is coupled downstream from the manual sort center for receiving the partially sorted parcels and is configured to finally sort the parcels for delivery. In addition, the system includes a plurality of carton palletization zones coupled downstream from the manual sort center for receiving the sorted cartons and to palletize the sorted cartons for delivery.

A sorting device for sorting out discrete products from a product stream includes, a friction element driven by a roller. The friction element is movable to press against a product to be sorted out and thereby apply a frictional force to the product to sort the product out of the product stream.