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.

In order to be able to shingle articles individual slices or partial portions of slices shingled in a longitudinal direction in a transverse direction relative to the running direction of conveyor units on which these articles are transported, the two conveyor units, on each of which one of the two articles is fully supported, are not brought to overlap in order to achieve the transverse shingling, but one of the articles is transported on its conveyor unit with a lateral overhang to the other conveyor unit, and the other article placed there on the edge side with such a height difference that the two articles can finally overlap and be placed on top of each other. However, the two conveyor units only have to be guided closely next to each other for this purpose without overlapping themselves. This simplifies the design of the overlapping unit and reduces its overall height.

In order to be able to shingle articles individual slices or partial portions of slices shingled in a longitudinal direction in a transverse direction relative to the running direction of conveyor units on which these articles are transported, the two conveyor units, on each of which one of the two articles is fully supported, are not brought to overlap in order to achieve the transverse shingling, but one of the articles is transported on its conveyor unit with a lateral overhang to the other conveyor unit, and the other article placed there on the edge side with such a height difference that the two articles can finally overlap and be placed on top of each other. However, the two conveyor units only have to be guided closely next to each other for this purpose without overlapping themselves. This simplifies the design of the overlapping unit and reduces its overall height.

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 method for formatting food products on a conveyor device includes a) receiving the food products in a plurality of parallel conveyor tracks, some of which include product gaps; b) outputting the food products into the parallel conveyor tracks in a specific product format; c) detecting the product supply in the conveyor tracks incoming on the input side individually for each of the conveyor tracks; and d) filling the product gaps in the conveyor tracks with food products, so that on the output side all of the parallel conveyor tracks are supplied with the food products. The product gaps are also filled with food products from a product buffer in that at least one of the food products is transferred from the product buffer to the conveyor track only when an odd number of product gaps exist in one of the conveyor tracks.

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 method of using a conveyor device is provided for conveying food products in stacks or interleaved units made of a plurality of slices of cheese or meat products. The method formats the food products in a specific product format on a plurality of parallel conveyor tracks, and fills a product gap on one of the plurality of parallel conveyor tracks incoming on the input side with a food product so that on the output side all parallel conveyor tracks are supplied with the food products.

A conveyor device is provided for conveying food products in stacks or interleaved units made of a plurality of slices of cheese or meat products. The conveyor device formats the food products in a specific product format on a plurality of parallel conveyor tracks, and fills a product gap on one of the plurality of parallel conveyor tracks incoming on the input side with a food product so that on the output side all parallel conveyor tracks are supplied with the food products. At least one product sensor is configured to detect a supply of food product on each conveyor track incoming on the input side.

The invention concerns a conveyor system for formatting slice-shaped food products in product stacks. The conveyor system includes an inlet, a lower product conveyor, an upper product conveyor, a vertically swiveling distributor conveyor for distributing the incoming food products selectively to the lower product conveyor or to the upper product conveyor, an output conveyor receiving the food products partially stacked from the lower product conveyor and the upper product conveyor, and an outlet for outputting the stacked food products in product rows. The individual conveying tracks of the distributor conveyor can be swivelled vertically independently of one another in order to forward the incoming food products individually for each conveying track selectively to the lower product conveyor onto the upper product conveyor.

The present disclosure relates to a palletizing control device, system, method and storage medium, and relates to the technical field of logistics. A palletizing control device includes: a prestage position generation module configured to generate a prestage position of an article to be palletized by respectively shifting a placement position of the article to be palletized along a horizontal palletizing direction by a horizontal offset corresponding to the article to be palletized and along a vertical palletizing direction by a vertical offset corresponding to the article to be palletized; and a path generation module configured to generate movement path information representing a straight path from the prestage position of the article to be palletized to the placement position of the article to be palletized.