A method for emptying the pockets of a transport device in the form of a suspension conveyor, the transport device including one or more trolleys which are movably mounted on a trolley track and on each of which a pocket hanging downwards for receiving goods is arranged, the pocket formed by at least one flexible material web that is planar when open and that is fastened at both ends to the trolley, forming a loop hanging downwards. The material web is releasably fastened by at least one end to the trolley. The method includes: advancing a closed pocket, opening the pocket by releasing the fastening of the at least one end of the material web to the trolley, emptying the goods from the opened pocket, closing the pocket by fastening the at least one end of the material web to the trolley, and transporting away the emptied and closed pocket.

A method for emptying the pockets of a transport device in the form of a suspension conveyor, the transport device including one or more trolleys which are movably mounted on a trolley track and on each of which a pocket hanging downwards for receiving goods is arranged, the pocket formed by at least one flexible material web that is planar when open and that is fastened at both ends to the trolley, forming a loop hanging downwards. The material web is releasably fastened by at least one end to the trolley. The method includes: advancing a closed pocket, opening the pocket by releasing the fastening of the at least one end of the material web to the trolley, emptying the goods from the opened pocket, closing the pocket by fastening the at least one end of the material web to the trolley, and transporting away the emptied and closed pocket.

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 device for commissioning goods (2) with a goods feed (3), the device including an unloading device (10) with at least one unloading point (11) for unloading goods (2), and an unloading handling module (20), to which the goods (2) are transferred from the unloading device (10), the unloading handling module (20) including at least one goods receiving element (21, 31, 81) and a moving element (22, 32) for transferring the goods (2) to a downstream conveying unit (30).

A device for commissioning goods (2) with a goods feed (3), the device including an unloading device (10) with at least one unloading point (11) for unloading goods (2), and an unloading handling module (20), to which the goods (2) are transferred from the unloading device (10), the unloading handling module (20) including at least one goods receiving element (21, 31, 81) and a moving element (22, 32) for transferring the goods (2) to a downstream conveying unit (30).

An egg conveyor assembly (1) comprises a first conveyor (4) having a first conveyor direction (X), a second conveyor (5) extending in a second conveyor direction (Y) transverse to the first conveyor direction (X) and a transfer device (6) arranged between the first conveyor and the second conveyor. The transfer device includes a transfer conveyor comprising and endless element (60) and extending in the second conveyor direction (Y). The second conveyor circulates second egg retainers (52) continuously, and the transfer conveyor circulates egg transfer retainers (62) discontinuously, in such that the egg transfer retainers of the transfer device are approximately standing still when receiving eggs from the first conveyor, and such that the egg transfer retainers of the transfer device are moving approximately synchronously with second egg retainers of the second conveyor when dropping the eggs in the second egg retainers of the second conveyor.

An overhead transport vehicle system stores a large number of articles and includes an inclined rail and overhead transport vehicles each including a traveler to travel on the inclined rail, a holder to hold an article, an elevator to raise and lower the holder, a horizontality guide to keep the elevator horizontal or substantially horizontal at the inclined rail, and a controller. Supports are horizontally provided at a same or substantially same height, and the overhead transport vehicles located on the inclined rail are able to transfer the article between them. The overhead transport vehicles transfer the article between the supports and the controller controls the elevator to raise and lower the holder by a raising and lowering amount according to a height distance between the inclined rail and an individual support.

An overhead transport vehicle system stores a large number of articles and includes an inclined rail and overhead transport vehicles each including a traveler to travel on the inclined rail, a holder to hold an article, an elevator to raise and lower the holder, a horizontality guide to keep the elevator horizontal or substantially horizontal at the inclined rail, and a controller. Supports are horizontally provided at a same or substantially same height, and the overhead transport vehicles located on the inclined rail are able to transfer the article between them. The overhead transport vehicles transfer the article between the supports and the controller controls the elevator to raise and lower the holder by a raising and lowering amount according to a height distance between the inclined rail and an individual support.

A transfer device includes a holder that holds an article, and a self-propelled cart that supports the holder and travels. The self-propelled cart includes a wheel and a wheel drive source that drives the wheel, and the self-propelled cart travels along a traveling path provided on an elevation unit and a delivery device. The delivery device includes a positioning portion that positions the elevation unit while the elevation unit is at a transfer height, and a delivery-side guide that guides travel of the self-propelled cart along the traveling path. The elevation unit includes an elevation-side guide that guides travel of the self-propelled cart along the traveling path, and the elevation-side guide is arranged so as to be continuous with the delivery-side guide while the elevation unit is positioned by the positioning portion.

An assembly station for interconnecting a chassis and a body of a vehicle comprises a first carrier to support the chassis. A second carrier is suspended in a positive z-direction with respect to the first carrier and includes a plurality of spaced apart rests adapted to support the body prior to interconnecting the chassis and the body. A plurality of supports are coupled to the second carrier and spaced apart from the body when the body is supported on the rests. A portion of each of the supports is pivotable from a first position in a path of travel of the chassis to a second position outside of the path of travel of the chassis. The first carrier is moveable relative to the second carrier. The supports are adapted to engage the chassis and simultaneously support both the chassis and the body when the supports are in the first position.