Block stacking arrangement that includes a plurality of container receiving slots, a loading space arranged below the container receiving slots in a direction of gravity, a pass-through opening between respective container receiving slots and the loading space, and a holding device, which is arranged in the pass-through opening, having a flap pivotable about a shaft between a holding position and a release position. The shaft is mounted in an edge of the pass-through opening, and the shaft is mounted at at least one end in a bolt socket that is upwardly open in the direction of gravity. The block stacking arrangement further includes a shaft hold-down device, which is fastened to the edge of the pass-through opening, arranged at least partially above the bolt socket in the direction of gravity to act on the end of the shaft.

Block stacking arrangement that includes a plurality of container receiving slots, a loading space arranged below the container receiving slots in a direction of gravity, a pass-through opening between respective container receiving slots and the loading space, and a holding device, which is arranged in the pass-through opening, having a flap pivotable about a shaft between a holding position and a release position. The shaft is mounted in an edge of the pass-through opening, and the shaft is mounted at at least one end in a bolt socket that is upwardly open in the direction of gravity. The block stacking arrangement further includes a shaft hold-down device, which is fastened to the edge of the pass-through opening, arranged at least partially above the bolt socket in the direction of gravity to act on the end of the shaft.

A block storage arrangement that includes a plurality of container stacking spaces, a loading space arranged below the container stacking spaces, and at least one loading vehicle which is movable in the loading space and has a lifting arrangement, with which containers can be loaded from below into a container stacking space and can be removed from below from the container stacking space. It would be desirable to enable a high productivity of the block storage arrangement. For this purpose, the lifting arrangement includes at least two lifting units that can be actuated independently of one another.

A block storage arrangement that includes a plurality of container stacking spaces, a loading space arranged below the container stacking spaces, and at least one loading vehicle which is movable in the loading space and has a lifting arrangement, with which containers can be loaded from below into a container stacking space and can be removed from below from the container stacking space. It would be desirable to enable a high productivity of the block storage arrangement. For this purpose, the lifting arrangement includes at least two lifting units that can be actuated independently of one another.

A Hock stacking arrangement includes multiple container holding spaces; a loading space arranged below the container holding spaces; and a frame arrangement between the container holding spaces and the loading space, The frame arrangement has node elements that are arranged at corners of the container holding spaces, and each pair of two adjacent node elements is releasably connected by a same beam.

A Hock stacking arrangement includes multiple container holding spaces; a loading space arranged below the container holding spaces; and a frame arrangement between the container holding spaces and the loading space, The frame arrangement has node elements that are arranged at corners of the container holding spaces, and each pair of two adjacent node elements is releasably connected by a same beam.

Provided a full-automatic wheel hub feeding-blanking system for intelligent production line of automotive wheel hubs, comprising: an intelligent material rack and a robot; the intelligent material rack comprises a bracket assembly, a turntable assembly and a bearing seat assembly; the turntable assembly being rotatable is mounted on the bearing seat assembly; the bracket assembly mounted on the turntable assembly comprises a base provided with at least one group of lifting devices, and each the group comprises three the lifting devices, and each of which an automotive wheel hub supporting plate assembly is provided on, central axis of the three automotive wheel hub supporting plate assemblies forming the angle of 120 degrees; the robot being mounted on one side of the intelligent material rack and comprises a robotic arm, and a manipulator is mounted on the robotic arm, and the manipulator is used for clamping the automotive wheel hub.

A cassette which receives a substrate, and a substrate receiving system including a chamber which receives a cassette in which a substrate is loaded are provided. The cassette which receives a substrate includes: a plurality of slot supports stacked in a first direction; and a frame connected to the plurality of slot supports and extending in the first direction, wherein the plurality of slot supports and the frame are opened in an outward direction to receive the substrate, and are closed in an inward direction after the substrate is received.

A cassette which receives a substrate, and a substrate receiving system including a chamber which receives a cassette in which a substrate is loaded are provided. The cassette which receives a substrate includes: a plurality of slot supports stacked in a first direction; and a frame connected to the plurality of slot supports and extending in the first direction, wherein the plurality of slot supports and the frame are opened in an outward direction to receive the substrate, and are closed in an inward direction after the substrate is received.

A load handling device is disclosed for retrieving, transporting, and delivering containers in a storage system having a grid structure formed of two substantially perpendicular sets of rails or tracks located above stacks of containers. An exemplary load handling device can include a wheel assembly, a container receiving space, and a plurality of vehicle modules. The wheel assembly can include a first set of wheels to guide movement of the load handing device in a first direction and a second set of wheels to guide movement of the load handing device in a second direction. Each of the vehicle modules can include a container lifting means arranged to lift a container into the container receiving space and each of the vehicle modules can be moveable to adjust the spacing of the containers in the load handling device.