Provided is a production line for treatments of container products having an upstream conveyor loaded with products into a multi-lane flow, moving the products along a stream direction through successive treatment workstations with one comprising a multi-lane treatment module along the upstream conveyor, a distribution surface located at an end of the upstream conveyor feeding the distribution surface with a multi-lane flow of products, a downstream conveyor located at an output of the distribution surface, transversally moving the products along a single-lane flow, a transfer means longitudinally transferring relative a row of the products from the distribution surface to the transversal downstream conveyor, wherein the distribution surface is orientated longitudinally along the stream direction and is aligned with the upstream conveyor. Also provided is a conveying device, a production method, and use of a distribution surface for converting a multi-lane flow of products into at a single-lane flow of products.

Provided is a production line for treatments of container products having an upstream conveyor loaded with products into a multi-lane flow, moving the products along a stream direction through successive treatment workstations with one comprising a multi-lane treatment module along the upstream conveyor, a distribution surface located at an end of the upstream conveyor feeding the distribution surface with a multi-lane flow of products, a downstream conveyor located at an output of the distribution surface, transversally moving the products along a single-lane flow, a transfer means longitudinally transferring relative a row of the products from the distribution surface to the transversal downstream conveyor, wherein the distribution surface is orientated longitudinally along the stream direction and is aligned with the upstream conveyor. Also provided is a conveying device, a production method, and use of a distribution surface for converting a multi-lane flow of products into at a single-lane flow of products.

To provide a plate material conveying system configured to load plate materials produced by a press work onto a tray at regular intervals, prior to a cleaning process. The plate material conveying system comprises: a feeding section 13 that feeds the plate materials produced by the press work at regular intervals; a storage section 14 that stores the plate materials conveyed sequentially from the feeding section 13; a loading section 15 that loads the plate materials stored in the storage section 14 on the tray opposing thereto at one time; and a discharging section 16 that conveys the tray from a site to be opposed to the storage section 14 to a predetermined site.

To provide a plate material conveying system configured to load plate materials produced by a press work onto a tray at regular intervals, prior to a cleaning process. The plate material conveying system comprises: a feeding section 13 that feeds the plate materials produced by the press work at regular intervals; a storage section 14 that stores the plate materials conveyed sequentially from the feeding section 13; a loading section 15 that loads the plate materials stored in the storage section 14 on the tray opposing thereto at one time; and a discharging section 16 that conveys the tray from a site to be opposed to the storage section 14 to a predetermined site.

An automatic storage and retrieval system includes: a delivery vehicle; a storage container carried by the delivery vehicle; and an unloading station for unloading an item from the storage container while it is being carried by the delivery vehicle. The unloading station includes: an unloading device; and a destination conveyor configured to convey the item to a target destination, wherein the unloading device is configured to move the item through a side opening of the storage container to the destination conveyor.

An automatic storage and retrieval system includes: a delivery vehicle; a storage container carried by the delivery vehicle; and an unloading station for unloading an item from the storage container while it is being carried by the delivery vehicle. The unloading station includes: an unloading device; and a destination conveyor configured to convey the item to a target destination, wherein the unloading device is configured to move the item through a side opening of the storage container to the destination conveyor.

An automated system for de-stacking a plurality of stacked objects, the automated system comprising a lift assembly and a grabber assembly. The lift assembly comprises a tower, and a number of electric motors. The tower is configured to rotate about a vertically-extending axis. One of the electric motors is configured to rotate the tower. Another one of the electric motors is configured to raise and lower the grabber assembly. The grabber assembly is configured to move with the tower as the tower rotates and comprises a claw and an electric motor. The claw is configured to grasp the objects individually. The electric motor of the grabber assembly is configured to actuate the claw. The first, second, and third electric motors are configured to operate in a refrigerated environment.

An automated system for de-stacking a plurality of stacked objects, the automated system comprising a lift assembly and a grabber assembly. The lift assembly comprises a tower, and a number of electric motors. The tower is configured to rotate about a vertically-extending axis. One of the electric motors is configured to rotate the tower. Another one of the electric motors is configured to raise and lower the grabber assembly. The grabber assembly is configured to move with the tower as the tower rotates and comprises a claw and an electric motor. The claw is configured to grasp the objects individually. The electric motor of the grabber assembly is configured to actuate the claw. The first, second, and third electric motors are configured to operate in a refrigerated environment.

An automated storage and retrieval system includes a grid-based rail structure and a plurality of remotely operated vehicles arranged to operate on the grid-based rail structure. The automated storage and retrieval system includes a locking device arranged in a zone of the grid-based rail structure where a human and/or a robotic operator is permitted to interact with the remotely operated vehicle or contents of a storage container that the remotely operated vehicle is carrying. The locking device is arranged to lock the remotely operated vehicle against accidental displacement prior to interaction with the human and/or robotic operator, and wherein the locking device being arranged to unlock the remotely operated vehicle once interaction with the human and/or robotic operator is no longer required.

An automated storage and retrieval system includes a grid-based rail structure and a plurality of remotely operated vehicles arranged to operate on the grid-based rail structure. The automated storage and retrieval system includes a locking device arranged in a zone of the grid-based rail structure where a human and/or a robotic operator is permitted to interact with the remotely operated vehicle or contents of a storage container that the remotely operated vehicle is carrying. The locking device is arranged to lock the remotely operated vehicle against accidental displacement prior to interaction with the human and/or robotic operator, and wherein the locking device being arranged to unlock the remotely operated vehicle once interaction with the human and/or robotic operator is no longer required.