A stack storage assembly with container stacking spaces, a charging space arranged below the container stacking spaces, and a charging vehicle movable in the charging space having a hoisting device to move a container into or out of a container stacking space. Each of the container stacking spaces has, at a lower end, a retaining device with at least one retaining element, which is movable, via an actuating device arranged on the charging vehicle, between a retaining position in which the at least one retaining element holds the container arranged in the container stacking spaces and a release position in which the container is relocated past the retaining element. The charging vehicle has at least one fixing element positionable into a fixing position to interact with the at least one retaining element located in the release position, and to hold the at least one retaining element in the release position.

A manually or robotically operable load carrier with at least one stacking column for storing material on top of or next to each other on ratchet elements, which are at least partially associated with a clamping ratchet element is disclosed. Embodiments include a first ratchet element connected by way of a strip to a second ratchet element arranged above or next to the first ratchet element. With embodiments, the clamping ratchet element is connected, firstly, to the first ratchet element, by way of a short strip, and secondly, to the second ratchet element, by way of a long strip.

A manually or robotically operable load carrier with at least one stacking column for storing material on top of or next to each other on ratchet elements, which are at least partially associated with a clamping ratchet element is disclosed. Embodiments include a first ratchet element connected by way of a strip to a second ratchet element arranged above or next to the first ratchet element. With embodiments, the clamping ratchet element is connected, firstly, to the first ratchet element, by way of a short strip, and secondly, to the second ratchet element, by way of a long strip.

The invention provides a stand system for arranging panels, having at least two stands and at least one coupling element for coupling the at least two stands, the stands and the coupling element produced from plastic, the stands comprising: substantially an L-shape having a sole for placing a stand on a floor and a rear surface, and a back surface and a support surface for together supporting the panels, the coupling element having: a coupling element length for coupling two stands substantially parallel and a length distance apart; a first end with a first coupling part; an opposite second end with a second coupling part,
and the stands further having a coupling part receiving part for in cooperation with at least one selected from the first and second coupling part for holding coupled stands substantially parallel and preventing shearing of coupled stands.

A retainment assembly that includes a proximal retainer member that is movable between a first retracted position, a second retracted position and a deployed position, a distal retainer member that is movable between a retracted position and a deployed position. When the proximal retainer member moves from the deployed position to the first retracted position the distal retainer member does not move, and when the proximal retainer member moves from the deployed position to the second retracted position the distal retainer member moves from the deployed position to the retracted position.

A retainment assembly that includes a proximal retainer member that is movable between a first retracted position, a second retracted position and a deployed position, a distal retainer member that is movable between a retracted position and a deployed position. When the proximal retainer member moves from the deployed position to the first retracted position the distal retainer member does not move, and when the proximal retainer member moves from the deployed position to the second retracted position the distal retainer member moves from the deployed position to the retracted position.

A system and method for automated palletization of totes and cuboid containers includes an end effector having fingers projecting outwardly. The fingers may engage recesses in the totes. Alternatively, actuators on fixed fingers can move gripping surfaces into engagement with the totes or containers. Or actuators on a body of the end effector can move the fingers, which include gripping surfaces.

A system and method for automated palletization of totes and cuboid containers includes an end effector having fingers projecting outwardly. The fingers may engage recesses in the totes. Alternatively, actuators on fixed fingers can move gripping surfaces into engagement with the totes or containers. Or actuators on a body of the end effector can move the fingers, which include gripping surfaces.

A block stacking arrangement that includes a plurality of container receiving slots; a loading space arranged in the direction of gravity below the container receiving slots; a pass-through opening between each of the container receiving slots and the loading space; and a holding device at the pass-through opening, which has at least one holding pawl that is pivotable between a holding position and a release position. The holding pawl has a cutout that, in the holding position, is directed into the pass-through opening.

A block stacking arrangement that includes a plurality of container receiving slots; a loading space arranged in the direction of gravity below the container receiving slots; a pass-through opening between each of the container receiving slots and the loading space; and a holding device at the pass-through opening, which has at least one holding pawl that is pivotable between a holding position and a release position. The holding pawl has a cutout that, in the holding position, is directed into the pass-through opening.