A transfer apparatus contains a conveying unit, a sorting unit, which is configured for receiving and sorting articles from the conveying unit, and a transfer unit with a feeding unit. The transfer unit forms a transporting connection between the conveying unit and the sorting unit. A discharging unit is positioned on a portion of the conveying unit and is configured to discharge an article onto the transfer unit only when the article is at a predefined minimum distance from a previously discharged article.

The invention concerns a conveying device (10) for conveying filled bags (1, 2), comprising a conveying unit (13) by which at least part of a conveying path (3) for conveying filled normal bags (1) can be formed from a feeding station (101) to a stacking area (105). The invention also concerns a system (100) for stacking filled bags (1, 2) and a method for stacking filled bags (1, 2).

A transfer device, for transferring components at high speed and inspecting the components, includes a first transfer mechanism including a first transfer section including a first transfer surface that moves along a first transfer path connecting a loading position to a delivery position, and a second transfer mechanism including a second transfer section that moves along a second transfer path connecting a receiving position spaced from the delivery position by a first distance to a discharging position. The second transfer section includes a second transfer surface that continuously rotates about a rotation axis along the second transfer path. A moving direction of the first transfer surface at the delivery position intersects a moving direction of the second transfer surface at the receiving position in a plan view of the first transfer surface. The second transfer mechanism includes a generator that generates an attraction force toward the second transfer surface.

A transport device is provided for transporting objects from work station to work station. A production facility for producing products is also described. The transport device has an object carrier on which a plurality of object carrier elements are arranged for placing down objects, and a drive unit for driving the object carrier. The object carrier can be moved in successive cycles such that the object carrier elements can be transported on a movement path from work station to work station. At least one object carrier element on the object carrier is displaceable relative to the object carrier in the movement path. The transport device has a dog element and a retaining element that are assigned to the object carrier element. The carrier element is carried along by the object carrier and moved from work station to work station or the carrier element remains at a work station.

Embodiments of product handling systems facilitate transfer of individual product items from incoming bulk form into dedicated trays for inspection, sorting, selection, and packaging. Inspection may comprise interrogation of product items within a tray by electromagnetic (e.g., optical, hyperspectral) or other (e.g., physical, acoustic, gas sensing, etc.) techniques. Prior to packaging, product items disposed within the tray may be stored in a moveable carousel responsible for controlling environmental factors such as temperature, humidity, illumination, ambient gases, product-to-product interactions, and/or others. Movement of product items from a carousel's transfer station to an outside staging position may be accomplished using robots and/or conveyor belts. Embodiments may allow rapid, low-cost consumer selection of specific individual product items based upon their accompanying metadata (e.g., source, identifier), in combination with the results of inspection (e.g., visual appearance). Embodiments may receive product items pre-packaged in tray format to expedite inspection, sorting, selection, and packaging.

Devices for separating piece goods such as pharmaceutical product packages to be stored in a picking device are provided. The device includes a feed device for piece goods, a recording device for recording 3D images of piece goods, a control device for evaluating 3D images and for determining a piece good to be picked, a conveyor for picking a piece good, a deposit surface, and a lateral recording device. The control device is configured so that the orientation of the picked piece good is ascertained and the preferred storage surface is established and that the conveyor is activated in such a way that a picked piece good is situated on a preferred storage surface on the deposit surface. Methods of separating piece goods to be stored in a picking device are also provided.

Devices for separating piece goods such as pharmaceutical product packages to be stored in a picking device are provided. The device includes a feed device for piece goods, a recording device for recording 3D images of piece goods, a control device for evaluating 3D images and for determining a piece good to be picked, a conveyor for picking a piece good, a deposit surface, and a lateral recording device. The control device is configured so that the orientation of the picked piece good is ascertained and the preferred storage surface is established and that the conveyor is activated in such a way that a picked piece good is situated on a preferred storage surface on the deposit surface. Methods of separating piece goods to be stored in a picking device are also provided.

Method, device and computer program for managing units of bulk material of an ore mine with a throughput of a few tons of bulk material per minute, wherein a material property of each unit, in particular on a conveyor system, is determined, an entry for each unit containing the respective material property of the unit and the position of each unit are stored in a database, and additional includes at least one (i) determining a transport path downstream for the each unit based on the respective entry in the database, (ii) adapting the subsequent processing of each unit based on the material property of the unit, and creating a virtual model of the repository if a unit is supplied to a repository, where a position of each unit is stored, together with its respective material property, in the database.

Variable-capacity store for cylindrical articles of the tobacco processing industry; the store comprises a conveying assembly comprising a first conveyor having a substantially helical shape; a second conveyor having a substantially helical shape and arranged above the first conveyor; and a linear transfer conveyor, which is adapted to convey the articles from the first conveyor to the second conveyor, having a variable length and, by extending and shortening, changes the area of the first conveyor from which it picks up the articles and the area of the second conveyor to which it feeds the articles, thus varying the capacity of the store.

Machine for the surface processing of products (L) under controlled pressure conditions different than the ambient pressure, comprising • at least one sealed chamber (12, 13), provided with at least one opening (15, 16), that can be closed, for inserting and removing a plurality of products (L) to be processed, • a device (30) for adjusting the pressure inside said at least one chamber (12, 13), • in said at least one chamber (12, 13), a moving device (20) for vertically moving said products (L), so as to accumulate at least two said products on levels arranged over one another, • a horizontal moving device (19) for moving said products (L) from and towards said at least one opening (15, 16) when the products (L) are arranged at the same level of said at least one opening (15, 16) wherein, from an operational viewpoint, a plurality of said products (L) are inserted into said at least one chamber (12, 13), and at least two products of said plurality of products (L) are over one another for a span of processing, and wherein, once all the products to be processed have been inserted into said at least one chamber, (12, 13) said chamber (12, 13) is closed and the pressure inside is adjusted up to an operational processing pressure, and then said at least one chamber (12, 13) is opened again and the products (L) are removed therefrom.