A vending machine and an item dispensing method. The vending machine includes: a storage column used to store items; a bucket used to receive an item from the storage column; a first conveying mechanism disposed at the storage column and used to convey the item in the storage column to the bucket; a second conveying mechanism disposed at the bucket and used to convey the item from the storage column to the inside of the bucket; and a controller. The first and second conveying mechanisms are each electrically connected to the controller. The item dispensing method includes controlling the first conveying mechanism to convey an item to the bucket at a first preset speed and controlling the second conveying mechanism to convey the item to the inside of the bucket at a second preset speed, as the item is entering the bucket, the first preset speed being less than the second preset speed.

A robot task system includes: a robot; a transfer device configured to be driven to transfer a plurality of workpieces thereon by a specific distance at a time, the plurality of workpieces being placed within the specific distance; a driving management unit configured to manage a driving distance and a driving start timing of the transfer device for driving the transfer device each time; a task position generation unit configured to generate a plurality of task positions at the driving start timing managed by the driving management unit, the plurality of task positions being positions for the robot to execute a predetermined task on the plurality of workpieces; a task unit configured to update, according to the driving of the transfer device, the plurality of task positions generated by the task position generation unit and generate a task command to cause the robot to execute the predetermined task on the plurality of workpieces while following the plurality of workpieces; and a control unit configured to control the transfer device based on the driving distance and the driving start timing of the transfer device, and control the robot based on the task command generated by the task unit.

A production line for manufacturing a building block, which includes at least one component, the production line including: a central conveyor line; at least one feeding line for feeding the at least one component to the central conveyor line; a manufacturing tool set for processing the at least one component; and a control unit for controlling the central conveyor line, the feeding line, and/or the manufacturing tool set. The controlling at least one of the central conveyor line, the feeding line, and/or the manufacturing tool set includes: retrieving an asset-information about the at least one component and/or the manufacturing tool set, conveying the at least one component according to the asset-information by the feeding line to the central conveyor line, retrieving a processing-information and/or a manufacturing tool set information about processing the at least one component, and processing the at least one component by the manufacturing tool set.

The present invention relates to a picking system for order-related picking of goods stockpiled in racks, with an automated picking cell including a gripper for gripping and picking the goods and a cell control unit for actuating the gripper, with a transport system for conveying the racks to a picking position near the picking cell, wherein the racks have shelves and/or containers on and/or in which goods are stored, wherein at least one shelf and/or container of a rack arranged in the picking position can be conveyed from a storage position inside the rack into a removal position in which the at least one shelf and/or container is at least partially arranged in front of the rack, wherein the gripper is actuated by the cell control unit to grip the goods stockpiled on the shelf and/or in the container while the shelf and/or container is in the removal position.

A vending machine and an item dispensing method. The vending machine includes: a storage column used to store items; a bucket used to receive an item from the storage column; a first conveying mechanism disposed at the storage column and used to convey the item in the storage column to the bucket; a second conveying mechanism disposed at the bucket and used to convey the item from the storage column to the inside of the bucket; and a controller. The first and second conveying mechanisms are each electrically connected to the controller. The item dispensing method includes controlling the first conveying mechanism to convey an item to the bucket at a first preset speed and controlling the second conveying mechanism to convey the item to the inside of the bucket at a second preset speed, as the item is entering the bucket, the first preset speed being less than the second preset speed.

A method of processing objects using a programmable motion device is disclosed. The method includes the steps of providing an input conveyance system by which input bins of objects may be provided to a processing station that includes the programmable motion device that includes an end effector, perceiving at the processing station identifying indicia representative of an identity of a plurality of objects at an input area of the input conveyance system, grasping the an acquired object using the end effector, moving the acquired object toward an identified processing container using the programmable motion device, the identified processing container being associated with the identifying indicia and said identified processing container being provided as one of a plurality of processing containers at the processing station, and providing an output conveyance system in communication with the processing station, by which processing containers that contain processed objects may be provided.

A method of processing objects using a programmable motion device is disclosed. The method includes the steps of providing an input conveyance system by which input bins of objects may be provided to a processing station that includes the programmable motion device that includes an end effector, perceiving at the processing station identifying indicia representative of an identity of a plurality of objects at an input area of the input conveyance system, grasping the an acquired object using the end effector, moving the acquired object toward an identified processing container using the programmable motion device, the identified processing container being associated with the identifying indicia and said identified processing container being provided as one of a plurality of processing containers at the processing station, and providing an output conveyance system in communication with the processing station, by which processing containers that contain processed objects may be provided.

An automatic feeding system adapted to arrange a variety of components having different shapes comprises a storage apparatus and a first conveying device. The storage apparatus includes loaded storage devices loaded with the components and unloaded storage devices unloaded with the components. The first conveying apparatus includes a pair of first support frames disposed opposite to each other, a loading conveying apparatus mounted between the first support frames and configured to convey the unloaded storage devices to a loading position to load the components thereon and change the unloaded storage devices to loaded storage devices, and an unloading conveying apparatus mounted between the first support frames and configured to receive the loaded storage devices conveyed from the loading position. The unloading conveying apparatus conveys the unloaded storage devices to the loading conveying apparatus after the components on the loaded storage devices are picked up by a pick-up apparatus.

A processing system including a singulation system is disclosed. The singulation system includes a conveying system for moving objects to be processed from a source area along a first direction, a detection system for detecting objects at the conveying system, and for selecting certain selected objects for redistribution on the conveying system, and a movement redistribution system for redistributing the certain selected objects on the conveying system for providing a singulated stream of objects.

Provided is a robot system that that can efficiently take out stacked workpieces being conveyed at low cost. A robot system includes: a position acquiring unit that acquires positions of workpieces on a basis of the workpieces captured by a first imaging unit; a three-dimensional information acquiring unit, that acquires three-dimensional information of the workpieces of which positions are acquired, on a basis of the workpieces captured by a second imaging unit; a determination unit that determines whether another workpiece is hidden by an exposed workpiece among the workplaces, on a basis of the three-dimensional information of the workpieces; a take-out unit that takes out the exposed workpiece; a detection unit that, in a case in which it is determined that the other workpiece is hidden by the exposed workpiece, detects the other workpiece by causing the second imaging unit to image the other workpiece after the other workpiece is exposed; and a transmission unit, that transmits a detection result by the detection unit to outside of the detection unit for use in a take-out operation by a robot.