A vehicle tilting device for tilting a delivery vehicle for increasing access to items from a storage container transported on the delivery vehicle. The vehicle tilting device comprises a base structure and a tiltable platform connected to the base structure, wherein the tiltable platform comprises guiding features adapted to guide the delivery vehicle onto the tiltable platform. The tiltable platform is arranged to be connected to a delivery grid cell of a delivery rail system such that that there is a path to and/or from the tiltable platform for the delivery vehicle via the delivery grid cell. The invention is also related to an access station, a delivery system and a method of accessing a storage container.

Provided is a dual lumber stacker assembly having two stackers constructed to remove lumber from a conveyor and stack the lumber. The arms are moved forward and aft by associated crank drives. The arms are moved upwards and downwards by associated cam drives. Also provided is a method stacking lumber using the dual lumber stacker.

Object manipulation space optimization is a challenging task and used in applications such as heat treatment operation and transport packaging. Traditionally manual intervention is involved to grasp and place the objects for ensuring multi object stacking with zero gap between adjacent objects. This leads to higher cost infrastructure and low productivity. Further, conventional gripper devices fail to optimize object manipulation space and are unable to handle objects of different cross sections with larger lengths. The present disclosure provides a gripper apparatus addressing a single gripper design comprising an adaptor holding unit with a provision for different modular object holding units which are varied in accordance with size, shape and length of the object to be grasped and placed by the gripper apparatus. The modular object holding unit comprises a plurality of fingers which are actuated for grasping and stacking one or more objects such that object manipulation space is optimized.

Object manipulation space optimization is a challenging task and used in applications such as heat treatment operation and transport packaging. Traditionally manual intervention is involved to grasp and place the objects for ensuring multi object stacking with zero gap between adjacent objects. This leads to higher cost infrastructure and low productivity. Further, conventional gripper devices fail to optimize object manipulation space and are unable to handle objects of different cross sections with larger lengths. The present disclosure provides a gripper apparatus addressing a single gripper design comprising an adaptor holding unit with a provision for different modular object holding units which are varied in accordance with size, shape and length of the object to be grasped and placed by the gripper apparatus. The modular object holding unit comprises a plurality of fingers which are actuated for grasping and stacking one or more objects such that object manipulation space is optimized.

An unloading arrangement, an unloading station, and a method of unloading an item (5) from a storage container (6), comprising: a delivery vehicle (30); a storage container (6) carried by the delivery vehicle (30); and an unloading station (10) for unloading an item (5) from the storage container (6) while it is being carried by the delivery vehicle (30) in an automatic storage and retrieval system (1), the unloading station (10) comprising: an unloading device (40); and a destination conveyor (60) configured to convey the item (5) to a target destination (TD), wherein the unloading device (40) is configured to move the item (5) through a side opening of the storage container (6) to the destination conveyor (60).

An unloading arrangement, an unloading station, and a method of unloading an item (5) from a storage container (6), comprising: a delivery vehicle (30); a storage container (6) carried by the delivery vehicle (30); and an unloading station (10) for unloading an item (5) from the storage container (6) while it is being carried by the delivery vehicle (30) in an automatic storage and retrieval system (1), the unloading station (10) comprising: an unloading device (40); and a destination conveyor (60) configured to convey the item (5) to a target destination (TD), wherein the unloading device (40) is configured to move the item (5) through a side opening of the storage container (6) to the destination conveyor (60).

A system and associated method for palletizing fluid filled flexible packages. The system includes a platform, a distance sensor, a robotic arm palletizer and a controller. The platform is configured and arranged with a support surface for supporting a fluid filled flexible package. The distance sensor is disposed above the support surface of the platform and faces downward towards the support surface for taking distance readings. The robotic arm palletizer is operable for palletizing fluid filled flexible packages according to a preprogrammed stacking protocol that includes a drop-off height dimension. The controller is in electrical communication with the distance sensor and the robotic arm for establishing or adjusting the drop-off height dimension based upon distance readings from the distance sensor.

A system and associated method for palletizing fluid filled flexible packages. The system includes a platform, a distance sensor, a robotic arm palletizer and a controller. The platform is configured and arranged with a support surface for supporting a fluid filled flexible package. The distance sensor is disposed above the support surface of the platform and faces downward towards the support surface for taking distance readings. The robotic arm palletizer is operable for palletizing fluid filled flexible packages according to a preprogrammed stacking protocol that includes a drop-off height dimension. The controller is in electrical communication with the distance sensor and the robotic arm for establishing or adjusting the drop-off height dimension based upon distance readings from the distance sensor.

A workpiece accumulator system for a stamping machine includes linear actuators, nesting blocks, exit rails, and a first controller. The nesting blocks are disposed on moveable members of the linear actuators and arranged to vertically stack workpieces being fabricated by the stamping machine. The first controller communicates with a second controller that controls the stamping machine. The first controller controls the linear positions of the linear actuators to retract the nesting blocks from an initial position to accommodate placement of the one of the plurality of workpieces in a stack on the nesting blocks. The linear actuators are controlled to retract the nesting blocks to fully retracted positions to place the plurality of workpieces in the stack onto the exit rails when a quantity of the plurality of workpieces in the stack is equal to a desired quantity.

A device and method for automatically stacking packages on a roll container in a predetermined spatial arrangement for forming a stack, comprising at least one feed conveyor which arranges the individual packages in a predetermined order; a lifting and lowering unit for lifting and lowering of the roll container in the Y-direction; at least one sliding plate and one pusher in order to transport the packages in the Z-direction to the predetermined position in the stack; moveable journals being provided in order to separate the lateral walls of the roll container. In a particular embodiment the journals are arranged on rotating disks.