Provided an automatic feeding device for automotive wheel hub, comprising a separable material rack having material rack units capable of being stacked in turn, a first roller table for conveying the separable material rack containing the wheel hub to a second roller table, and a material rack separating device having a support frame and material rack inserting and taking devices; the second roller table, under which a lifting platform is mounted, is located at a first end of lower part of the material rack inserting and taking device; the material rack inserting and taking device splitting the separable material rack into units, and placing to a third roller table being arranged at a second end of the lower part thereof; a manipulator, for grasping and placing the wheel hub from the material rack unit to a fourth roller table being on a second side thereof.

A system for moving items in a facility may be described herein. The system may instruct components of the system to move the items at different speeds or velocities based on an item's fragility rating. A fragility rating may indicate an amount of force that an item withstands prior to damaging the item. A fragility rating for an item may be determined based on known fragility ratings of items with similar item metrics.

Various embodiments illustrated herein disclose an apparatus. The apparatus comprises a rotary put wall having a plurality of totes. The apparatus further comprises a vertical reciprocating conveyor (VRC) placed within the rotary put wall. The internal vertical reciprocating conveyor (VRC) comprises a plurality of chutes to receive one or more items from a robotic device. The internal vertical reciprocating conveyor (VRC) is further configured to be rotatable with respect to the rotary put wall and to convey the one or more items into one tote of the plurality of totes of the rotary put wall.

A workstation receives bots carrying order totes and bots carrying product totes for transfer of goods from the product totes to the order totes. The workstation comprises a robot for automated transfer of goods between the product and order totes, but may also have a station for an operator to perform manual transfer. Cameras may be provided to capture images of the product and/or order totes to identify contents of totes and to identify positions where goods are to be picked from the product totes and placed into the order totes.

A gripper mechanism for a palletizer apparatus is configured to receive articles from an associated infeed conveyor in any one of a plurality of orientations of the gripper mechanism relative to the infeed conveyor. In a preferred embodiment, the gripper mechanism is configured to receive articles through any one of four sides of the mechanism.

A system for automatically handling components to be assembled onto a product on an assembly line includes a carriage that is movable to and between a first, retracted position spaced from the assembly line, and a second position displaced from the retracted position in a direction toward the assembly line. A manipulator on the carriage supports a component mounting tool configured to receive and support at least one component for assembly to the product. The manipulator may be arranged in a first orientation when the carriage is in the first position, and may be pivoted to a second orientation when the carriage is in the second position, such that a component on the component mounting tool is supported in a pose for processing when the carriage is in the first position, and is supported in a pose for joining to the product when the carriage is in the second position.

An apparatus for unloading tote contents is provided. The apparatus includes an arm assembly, a door assembly connected to the arm assembly, and first and second drivers configured to rotate the arm assembly and the door assembly about first and second axes, respectively. The arm assembly is configured to pick up a tote from a first conveyor belt. The door assembly is configured to secure at least one item within the tote and provide a ramp for unloading the at least one item from the tote onto a second conveyor belt.

An improved gripper mechanism for a palletizer apparatus is configured to receive articles from an associated infeed conveyor in any one of a plurality of orientations of the gripper mechanism relative to the infeed conveyor, thus desirably reducing the cycle time required for each of the articles to be handled and positioned by the gripper mechanism. In the preferred embodiment, the gripper mechanism is configured to receive articles through any one of the four sides of the mechanism, thereby desirably reducing the cycle time required for returning the gripper mechanism to a position and orientation for receiving the next successive article from the infeed conveyor.

The apparatus comprises a rotary put wall having a plurality of totes. The apparatus further comprises a vertical reciprocating conveyor (VRC) placed within the rotary put wall. The internal vertical reciprocating conveyor (VRC) comprises a plurality of chutes to receive one or more items from a robotic device. The internal vertical reciprocating conveyor (VRC) is further configured to be rotatable with respect to the rotary put wall and to convey the one or more items into one tote of the plurality of totes of the rotary put wall.

Various embodiments illustrated herein disclose an apparatus. The apparatus comprises a rotary put wall having a plurality of totes. The apparatus further comprises a vertical reciprocating conveyor (VRC) placed within the rotary put wall. The internal vertical reciprocating conveyor (VRC) comprises a plurality of chutes to receive one or more items from a robotic device. The internal vertical reciprocating conveyor (VRC) is further configured to be rotatable with respect to the rotary put wall and to convey the one or more items into one tote of the plurality of totes of the rotary put wall.