A storage device (1′) for storing transport units (3′) includes a number of transport units (3′), a number of storage lines (12a′-12g′) which are configured to store transport units (3′), a feeding line (11′) which is connected by a respective first switch point (111′) to the storage lines (12a′-12g′), a measuring device (15′) which is arranged on the feeding line (11′) and which is configured to determine a respective extent of a transport unit (3′), and a controller (16′) which is connected to the measuring device (15′) and to the first switch pointes (111′) and which is configured to select a storage line (12a′-12g′) for storing the transport unit (3′) on the basis of the extent of the transport unit (3′) determined by the measuring device (15′).

A method of constructing a conveyor system includes decommissioning an existing conveyor system by removing electrification or a powered chain from a conveyor rail. Carriers of the existing conveyor system are removed from the rail. An automated conveyor carrier (ACC) is installed onto the rail so that a drive wheel of a self-driving trolley of the ACC is put into contact with the rail. A battery is installed on the ACC. Electrical connection is established from the battery to the self-driving trolley.

A device for lifting and stabilizing loads includes a frame and a cross-beam arranged below the frame, wherein the device receives the load and, via lifting structure fastened to the cross-beam, is adjustable for height and can be stabilized via two crossing telescopic struts, where one internal tube and one external tube are interconnected, connection of the telescopic struts is established via three form-fitting traction parts, one first form-fitting traction part in the internal tube of a telescopic strut is mounted at both ends via respective inner and outer disks, a third form-fitting traction part is mounted on two rotatable disks, the disks of the respective first and third traction parts situated on one side are interconnected such that rotational movements between both disks are transmittable, and where the respective first form-fitting traction part is fastened on the inner wall of the two external tubes.

A conveying device for conveying a sheet-like material of the present invention includes: a rail portion arranged in a loop shape; a plurality of travelers; a linear motor for circulating the travelers along the rail portion; and a pad attached to each of the travelers, wherein the pad circulates in at least one horizontal plane while holding the sheet-like material on the pad, thereby conveying the sheet-like material.

A conveying device for conveying a sheet-like material of the present invention includes: a rail portion arranged in a loop shape; a plurality of travelers; a linear motor for circulating the travelers along the rail portion; and a pad attached to each of the travelers, wherein the pad circulates in at least one horizontal plane while holding the sheet-like material on the pad, thereby conveying the sheet-like material.

An apparatus (10, 60) for storage of elongate elements, such as pipes, tubes and conduits. The apparatus (10, 60) includes a frame (12) that supports a plurality of trays (15, 63). The trays (15, 63) are arranged in two vertical columns of storage positions, except for the trays located at the top or bottom of the apparatus as they are moved about sprockets (71, 72) by a drive motor (73). Each tray (15, 63) is configured to support a plurality of elongate items. The trays (15, 63, which may embodied as cradles or racks, may be moved between a storage position and an access position, wherein in the access position, the elongate items can be accessed from substantially vertically above the tray (15, 63).

A conveyor system includes a fixed, non-powered rail defining a conveyor path. An automated conveyor carrier (ACC) is supported by the rail and drivable along the rail by an on-board motor in a self-driving trolley of the ACC, the motor powering a drive wheel. The rail defines a first section and a second section separate from the first section. The conveyor system is adapted to provide a first amount of traction for the ACC on the rail in the first section and a second amount of traction, greater than the first amount of traction, in the second section.

Embodiments of a mobile carrier monitoring apparatus are disclosed. The apparatus includes one or more mobile carriers configured to receive items being manufactured in its interior and configured be moved by a transport system to multiple positions within a manufacturing facility. A mobile carrier control system is positioned in the interior or on the exterior of each mobile carrier, as are one or more sensors that are coupled to the mobile carrier control system. A communication system is positioned in the interior or on the exterior of each mobile carrier and communicatively coupled to the at least one sensor and to the mobile carrier control system, and an electrical power system positioned in the interior or on the exterior of each mobile carrier and coupled to deliver electrical power to the mobile carrier control system, to the one or more sensors, and to the communication system. Other embodiments are disclosed and claimed.

A device for inspecting transport bags (14) that can be conveyed in a suspended manner with a bag interior (16) for receiving piece-goods units (5), the transport bag having a bag opening (17) of the bag interior, includes a device for opening and/or keeping open the bag opening of a transport bag that is to be inspected; and a detection device (70) that is configured to receive at least one two-dimensional and/or three-dimensional image of at least part of the bag interior of the transport bag to be inspected.

A cartoning machine for packaging one or more products in a respective carton includes a product conveyor for conveying the products along an advancement direction, a transport device for transporting the carton along a transport path, an insertion zone wherein the products face an aperture of the carton and are inserted into the carton. The product conveyor includes a first belt on which first edges are mounted and a second belt on which second edges are mounted, each first edge defining with a respective second edge a pair of containment edges of the products. A mutual position of the first belt and of the second belt is adjustable so as to adjust accordingly a distance between the first edges and the second edges to adapt the pair of containment edges to a dimension of the products. The product conveyor further includes a first cam path and a second cam path, each first edge including a first cam follower engaging the first cam path and each second edge including a second cam follower engaging the second cam path, such that the first edges and the second edges are movable transversely to the advancement direction towards the carton at the insertion zone.