There is provided a conveyance system that conveys a workpiece to each of plural processing apparatuses. The conveyance system includes a conveyance passage, an automated workpiece conveying vehicle that travels on the conveyance passage, a stock unit, and a control unit. The conveyance passage is set in a space directly above the processing apparatus across the plural processing apparatus. The stock unit includes a placement base on which a workpiece stocker capable of housing plural workpieces is placed, two temporary putting bases on which the workpiece carried out from the workpiece stocker on the placement base is temporarily put, a temporary putting base movement part that moves the two temporary putting bases in such a manner as to interchange the two temporary putting bases between a first position that faces the placement base and a second position adjacent to the first position.

There is provided a conveyance system that conveys a workpiece to each of plural processing apparatuses. The conveyance system includes a conveyance passage, an automated workpiece conveying vehicle that travels on the conveyance passage, a stock unit, and a control unit. The conveyance passage is set in a space directly above the processing apparatus across the plural processing apparatus. The stock unit includes a placement base on which a workpiece stocker capable of housing plural workpieces is placed, two temporary putting bases on which the workpiece carried out from the workpiece stocker on the placement base is temporarily put, a temporary putting base movement part that moves the two temporary putting bases in such a manner as to interchange the two temporary putting bases between a first position that faces the placement base and a second position adjacent to the first position.

A storage and retrieval system including a vertical array of storage levels, each storage level having storage locations, a multilevel vertical conveyor system configured to transport the uncontained case units to and from the vertical array of storage levels, each storage level being configured to receive uncontained case units from the multilevel vertical conveyor system, at least one autonomous transport confined to each storage level, the at least one autonomous transport being configured to transport the uncontained case units between respective storage locations and the multilevel vertical conveyor system, and a controller configured to effect operation of the multilevel vertical conveyor system and at least one autonomous transport for assembling orders of uncontained case units of different types without moving bundles of the same uncontained case unit type throughout the storage and retrieval system.

Example systems and methods for automated delivery of a food and/or beverage from a kitchen may be directed to a first vertically extending elevator configured to transport a payload to and from the kitchen. The payload may include a food and/or a beverage. Example systems also may include a laterally extending conveyor configured to transport the payload laterally from the first elevator to a second elevator. The second elevator is configured to transport the payload from the conveyor to a customer delivery window.

The temporary store for buffering and feeding piece-goods-like foods from production to packaging by means of peripherally-circulating product carrier baskets (1) consists of an inlet area (3) and an outlet area (4) for loading and unloading the product carrier baskets, as well as accumulation sections (2) connected therebetween for filled and emptied product carrier baskets. The accumulation sections are arranged one above the other and overhead.

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.

A floor-to-floor transport system that transports an article between different floors by using an upward path and a downward path in a vertical transporter that revolves in one direction includes, on at least one floor: a loading transport line that transports to the vertical transporter an article to be transported to another floor; a first loading opening through which the article is loaded into the upward path in the vertical transporter; a second loading opening through which the article is loaded into the downward path in the vertical transporter; a transferor that selectively transfers to the first loading opening or the second loading opening an article transported by the loading transport line; and a controller that controls the transferor depending on a destination of the article.

A floor-to-floor transport system that transports an article between different floors by using an upward path and a downward path in a vertical transporter that revolves in one direction includes, on at least one floor: a loading transport line that transports to the vertical transporter an article to be transported to another floor; a first loading opening through which the article is loaded into the upward path in the vertical transporter; a second loading opening through which the article is loaded into the downward path in the vertical transporter; a transferor that selectively transfers to the first loading opening or the second loading opening an article transported by the loading transport line; and a controller that controls the transferor depending on a destination of the article.

A slicing apparatus for slicing food products into slices comprises a feeding unit configured to feed products along a feeding direction into a cutting region in which a blade for slicing the products into slices is arranged, wherein the feeding unit comprises a moving device that is configured to move the products into the cutting region, and wherein the moving device comprises a transporting member that is configured to apply a pressure onto an upper product side while the product is fed into the cutting region.